Affiliation:
1. Hachinohe Institute of Technology
Abstract
It is clear from the former researches on reinforced concrete filled tubular steel (RCFT) structures that RCFT structures have better performance than concrete filled tubular steel (CFT) structures, in other words, because of the existence of reinforcement, the performance of RCFT differed from that of CFT. Therefore, to clarify the effect of axial reinforcement on mechanical properties of RCFT, compression tests of RCFT columns with different ratio of axial reinforcement were carried out, meanwhile, corresponding tests of CFT, reinforced concrete (RC), pure concrete, and steel tube columns were done to compare with RCFT. By a series of comparison and analysis, effect of axial reinforcement on RCFT columns were discussed, and following conclusions were drawn: reinforcement ratio has direct effect on performance of RCFT. Over arranged reinforcement will cause pre-failure of concrete without exerting strength of reinforcement, and not only may cause brittle-failure or lower performance of the structure, but also cause the increase of construction cost. On the contrary, proper ratio of reinforcement can make the RCFT possess better confined effect, improve overall performance of the RCFT structure; furthermore, whatever the ratio of reinforcement, RCFT has better performance than both CFT and RC, especially possesses more brittle-failure resistance than CFT.
Publisher
Trans Tech Publications, Ltd.
Reference23 articles.
1. JSSC: The present situation and study on concrete filled steel tube at CMLengineering branch(Japanese Society of Steel Construction, Tokyo Japan1998).
2. T. Suzuki ,S. Motoyui and H. Ohta: Study on structural properties of concrete filled circular steel tubular stub columns under pure axial compression, J. Struct. Constr. Eng., AIJ, No. 499(1997), pp.123-129.
3. K. Murata, M. Yasuhara, T. Watanabe and M. Kinoshita: Evaluation of bearing capacity and ductility for concrete filled circular steel tubular columns, J. Struct. Eng., JSCE, 44A(1998), pp.1555-1564.
4. C. Matsui : Structural performance and design of concrete filled steel tubular structures", Journal of Steel Construction, JSSC, Vol. 1(1994), pp.11-24.
5. H. Nakai, T. Kitada, O. Yoshikawa, S. Murakami and Y. Sakuramoto: Experimental study of concrete-filled steel members with circular cross section subjected to bending and torsion, Journals of the Japan Society of Civil Engineers, JSCE, No. 612/I-46(1999).
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